Running Maze2D Demos

This is a simple demonstration of a maze task.

Overview

The robot is an omniwheel mobile robot. The robot can move in any direction on a 2-dimensional plane ([-1,1]x[-1,1]).

map-ce2-rlem080907-Nt-ex10.png

This task is performed in simulation. The state of the robot is its global position which is expressed as

x = (x1, x2) ,

and its control input is the state transition in a time step dt=0.01 which is expressed as

u = (Dx1, Dx2) .

In this environment, there is some wind that changes the behavior of the robot in the direction of the arrows as shown in the above figure. There are also walls which the robot can not pass through.

The objective of the navigation task is to acquire a path from the start to the goal. According to this objective, the reward function is designed as follows: 1 for goal, a small step cost, and a penalty for going out of the plane.

Build the Demo Program

Execute:

 $ cd benchmarks/maze2d
 $ make

See Documentation/Installation Guide for the detail.

Running Command

Execute as follows:

 $ ./maze2d.out -path ../cmn,m -agent AGENT_FILE -outdir OUT_DIR

Here, AGENT_FILE is an agent script in which a reinforcement learning method and the other conditions are slected. Available agent scripts are listed below. OUT_DIR is a result directory into which the program store some data. You need to create OUT_DIR before running; if non-existet directory is specified, no result is stored.

For example, execute the following:

 $ mkdir -p result/rl1
 $ ./maze2d.out -path ../cmn,m -agent ql_da1 -outdir result/rl1

You can see the output like:

 random seed = 1306343562
 episode 0...
 episode 1...
 episode 2...
 episode 3...
 episode 4...
 ...
 episode 997...
 episode 998...
 episode 999...

In OUT_DIR (result/rl1), following files are stored:

cmdline
Command line of the execution.
before.agent, after.agent
Whole agent scripts generated by the program (before the execution and after the execution, respectively).
ext_sto
External storage directory (maybe not used in this case).
included
A copy of every included agent file.
log-eps-ret.dat
Log file of (episode number, return in the episode).
log-action-res.dat
Log file of each action.

So, for example, use gnuplot to plot the learning curve as:

 $ gnuplot
 gnuplot> plot 'result/rl1/log-eps-ret.dat' w l
rl1-eps-ret.png

Agent Script

The following files can be specified as AGENT_FILE.

ql_da1
Q(λ)-learning, linear action value function (NGnet).
fqi_da1
Fitted Q iteration (updated in every 10 episode), linear action value function (NGnet).
lspi_da1
LSPI (updated in every 5 episode), linear action value function (NGnet).
hrl_da1
Cohen's hierarchical RL.
ql_gwf1
Wire-fitting updated by Q(λ)-learning.
qlfqi_da1
Q(λ)-learning + Fitted Q iteration (updated in every 10 episode), linear action value function (NGnet).
qlfqi_gwf1
Q(λ)-learning + Fitted Q iteration (updated in every 10 episode) for Wire-fitting.
dyna_da1
Dyna (using McMahan-and-Gordon's prioritized sweeping), linear action value function (NGnet).
ql_dcob_q1
Q(λ)-learning, DCOB (action space), linear action value function (NGnet).
ql_wfdcob1
Q(λ)-learning, WF-DCOB.
chacts
In this case, available action set changes with state (situation).

Miscellaneous

In order to specify the random seed, just append an agent file as follows:

 $ ./maze2d.out -path ../cmn,m -agent ql_da1,seed0 -outdir result/rl1

Here, seed0 is m/seed0.agent; in this file, the random seed is set to be zero. By specifying the random seed, we can obtain the same result in every run.

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